The effect of diterpenoidic diacylglycerols on tentacle regeneration in Hydra vulgaris.

1. The effect of two ichthyotoxic diterpenoid diacylglycerols, verrucosins A and B, previously isolated from the mantle of a marine nudibranch mollusc, were studied on Hydra vulgaris tentacle regeneration. 2. A potent effect was found for both verrucosins in the low nanomolar range; the rank of potency observed was analogous to that reported for diglycerid activation of protein kinase C and to that found for verrucosin activation of this enzyme. 3. In the high nanomolar range, the two verrucosins were found to be toxic to Hydra vulgaris. 4. Verrucosin B-induced toxicity and tentacle regeneration were found to be dependent on [Ca2+] in the assay medium.     

Notch-signalling is required for head regeneration and tentacle patterning in Hydra

Local self-activation and long ranging inhibition provide a mechanism for setting up organising regions as signalling centres for the development of structures in the surrounding tissue. The adult hydra hypostome functions as head organiser. After hydra head removal it is newly formed and complete heads can be regenerated. The molecular components of this organising region involve Wnt-signalling and β-catenin. However, it is not known how correct patterning of hypostome and tentacles are achieved in the hydra head and whether other signals in addition to HyWnt3 are needed for re-establishing the new organiser after head removal. Here we show that Notch-signalling is required for re-establishing the organiser during regeneration and that this is due to its role in restricting tentacle activation. Blocking Notch-signalling leads to the formation of irregular head structures characterised by excess tentacle tissue and aberrant expression of genes that mark the tentacle boundaries. This indicates a role for Notch-signalling in defining the tentacle pattern in the hydra head. Moreover, lateral inhibition by HvNotch and its target HyHes are required for head regeneration and without this the formation of the β-catenin/Wnt dependent head organiser is impaired. Work on prebilaterian model organisms has shown that the Wnt-pathway is important for setting up signalling centres for axial patterning in early multicellular animals. Our data suggest that the integration of Wnt-signalling with Notch-Delta activity was also involved in the evolution of defined body plans in animals.     

Glutamatergic and GABAnergic control in the tentacle effector systems of Hydra vulgaris

In addition to their role in orchestrating body and tentacle contractions, hydra’s nerves control the behavior of nematocysts; precisely how is still a work in progress. There are strong indications that the classical neurotransmitters, glutamate and GABA (γ-amino-butyric acid), play an essential role in effecting stenotele and desmoneme discharge. In experiments on isolated tentacles of Hydra vulgaris, in which cnidocils were mechanically deflected with a piezo-electrically-driven glass micropipette, stenoteles and desmonemes respond to differences in applied force in a dose-dependent manner. GABA, working through its metabotropic receptor, appears to be involved with the recruitment of desmonemes. Desmonemes in distant battery cells or in another part of a given battery cell were discharged by stimulating a desmoneme cnidocil in the presence of bath-applied GABA or its metabotropic agonist, baclofen. The effect was blocked by phaclofen, its metabotropic antagonist. Neither GABA nor baclofen affected stenotele discharge. GABA_A agonists had no effect on nematocyst discharge. Glutamate caused a significant increase in number of stenoteles responding to direct mechanical stimuli, but did not effect desmoneme discharge. The effect was mimicked by NMDA (n-methyl-d-aspartate) together with kainate, or by NMDA plus AMPA (amino-3-hydroxy-5-methyl-isoxazole-4-propionic acid), but not with any ionotropic agonist alone. The effect was blocked by D-AP 5 (d- (−)–2-amino–5-phosphopentanoic acid), a specific NMDA antagonist, or CNQX (6-cyano-7-nitroquinoxaline-2,3-dione), a specific kainate/AMPA antagonist. A glutamatergic mechanism working through ionotropic glutamate receptors appears to lower the firing threshold of stenoteles, perhaps␣by permitting the entry of Ca²⁺ into the cell through the early evolved NMDA/kainite/AMPA mechanism.     

Involvement of nitric oxide in the head regeneration of Hydra vulgaris

Recent data have shown that a functional NO-cGMP signalling system plays an important role during development and seems to be operative early during the differentiation of embryonic stem cells. The intriguing possibility exists that this role can be evolutionarily conserved between vertebrates and invertebrates. In this paper, we have analyzed the effect of NO-cGMP pathway on the regeneration process in Hydra vulgaris, the most primitive invertebrate possessing a nervous system. Our results indicate that NO production increased during Hydra regeneration. The NOS inhibitor L-NAME reduced the regenerative process and the same effect was obtained by treatment with either the specific guanylate cyclase inhibitor ODQ or the protein kinase G (PKG) inhibitor KT-5823. In contrast, the regeneration process was increased by treating decapitated Hydra with the NO donor NOC-18. Furthermore, we found that cell proliferation was also increased by treating decapitated Hydra with the NO donor NOC-18 and reduced by treatment with the NOS inhibitor L-NAME. Our results strongly suggest that the NO-cGMP-PKG pathway is involved in the control of the proliferative-differentiative patterns of developing and regenerating structures in cnidarians as well as bilaterians.     

Monoclonal Antibodies againstAntigens of Hydra vulgaris and Hydra oligactis

The goal of the study was to obtain a panel of monoclonal antibodies (MAb) against antigens of freshwater polyps of the genus Hydra. Hybrid mice F₁(Balb/c × SJL/J) were immunized with cell membrane fraction of H. vulgaris and three months later their splenocytes were fused with cultured mouse myeloma cells 653A. Testing of culture fluids in ELISA with immobilized H. vulgaris cells, 82 hybridomas producing MAb were revealed. Study of MAb specificity in ELISA with H. vulgaris and H. oligactis cells indicated that 22% of them recognized only H. vulgaris antigens. About 50% of MAb recognized equally antigens of the both species. The rest of MAb reacted with H. vulgaris and H. oligactis antigens to different degree. Eight hybridomas producing MAb of all three above groups were adapted for growth as ascitic tumors. The distribution of antigens binding these MAb was studied in indirect immunofluorescence on fixed polyps, living or fixed cells, and on paraffin- embedded sections. Among the best studied MAb, of the greatest interest were the following reagents. One of them (1A10) revealed an antigen on surface membranes of ectodermal epithelial cells of H. vulgaris. The second one (1G10) was specific of the antigen located in mesoglea and basal cytoplasmic areas of ectodermal and entodermal epithelial cells of the both hydra species. The MAb 4G3 interacted with cytoplasmic antigen of ectodermal epithelia-muscular cells of the both hydra species. MAb 4H1 revealed nematocytes in H. vulgaris and H. oligactis. The data obtained indicate that in two species of hydra the epitopes binding the same MAb might be located in cells of different types.     

Digestive cell and tentacle number in freshly detached buds of Hydra viridis

Buds were collected from hydras fed four days a week on different schedules. Independent of schedule, parents produced the same number of buds per week, but significant differences appeared in the number of buds detaching on particular days, and in the number of digestive cells present in the buds. Groups of buds collected from parents fed the same number of days (from one to three) during the previous four days contained statistically indistinguishable numbers of digestive cells despite the order or sequence of days on which feedings occurred. The number of digestive cells in all the freshly detached buds collected here can be accounted for by the growth of a bud primordium over a four day period of bud development and growth. Such a primordium would have about 3,600 digestive cells and grow at the rate of 0.33 cells per cell per day of feeding. The numbers of tentacles found on freshly detached buds are correlated with the number of feeding days and digestive cells present in the bud. Tentacles, therefore, may also form from primordia consisting originally of a specific number of cells.     

The spatial distribution of cations in nematocytes of Hydra vulgaris

The spatial distribution of cations was assayed qualitatively and quantitatively in tentacular nematocytes of Hydra vulgaris in a scanning transmission electron microscope by means of x-ray microanalysis performed on 100 nm thick freeze-dried cryosections. The matrix of undischarged cysts (stenoteles, desmonemes and isorhizas) was found to contain mainly K⁺. In isolated nematocysts of Hydra the intracapsular potassium can be readily substituted by practically any other mono- and divalent cation (Na⁺, NH₄ ⁺, Mn²⁺, Co²⁺, Mg²⁺, Ca²⁺, Fe²⁺) all, except Fe²⁺, without impairing the ability of the cyst to respond to the chemical triggering with dithioerythritol or proteases. Monovalent cations increase the osmotically generated intracapsular pressure compared to divalent ions.     

Peptide-driven control of somersaulting in Hydra vulgaris

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An IQGAP-related gene is activated during tentacle formation in the simple metazoan Hydra

Differentiation of body column epithelial cells into tentacle epithelial cells in Hydra is accompanied by changes in both cell shape and cell-cell contact. The molecular mechanism by which epithelial cells acquire tentacle cell characteristics is unknown. Here we report that expression of a Hydra homologue of the mammalian IQGAP1 protein is strongly upregulated during tentacle formation. Like mammalian IQGAP, Hydra IQGAP1 contains an N-terminal calponin-homology domain, IQ repeats and a conserved C terminus. In adult polyps a high level of Hydra IQGAP1 mRNA is detected at the basis of tentacles. Consistent with a role in tentacle formation, IQGAP1 expression is activated during head regeneration and budding at a time when tentacles are emerging. The observations support the previous hypothesis that IQGAP proteins are involved in cytoskeletal as well as cell-cell contact rearrangements. Received: 25 January 2000 / Accepted: 2 May 2000     

Rapid exocytosis of stenotele nematocysts in Hydra vulgaris

Each cnidarian nematocyte includes a vesicular organelle, called nematocyst, which discharges its content when the cell receives appropriate stimuli. Extracellular electrical stimuli induced discharge of in situ stenoteletype nematocysts in Hydra vulgaris when the apical membrane of nematocytes was depolarized by about 25 mV or more (threshold). Stimuli hyperpolarizing the apical membrane induced discharge only at high amplitudes, adding about 80 mV or more to the resting membrane potential of the nematocyte (resulting in a voltage that may permeabilize the apical membrane). In order to determine the speed of the initiating (exocytotic) process, the delay between stimulus and a clearly visible sign of discharge (i.e., protrusion of the nematocyst's stylets) was measured using video microscopy with triggered flash illumination. The minimal delay was 330–450 s and 230–350 s for depolarizing and large hyperpolarizing stimuli, respectively. With depolarizing stimuli, all discharges of stenoteles occurred between 330 and 950 s after the stimulus. The deviation was caused by differences in the physiological state of the animals tested rather than by variance in the responsiveness of different stenoteles in the same tentacle.Voltage dependence, short latency and Ca/Mg-antagonism are similar to those characterizing exocytosis of synaptic vesicles. This correspondence suggests that discharge of nematocysts is initiated by a similar exocytotic process preceding the ejection of the nematocyst's content.     

Evaluation of tentacle regeneration as a biological assay inHydra

Summary Tentacle number in non-buddingHydra attenuata, randomly selected from mass culture varies <0.5 tentacles over a 3 month period. Replicate samples of untreated regenerates (n=50–60), however, show some variability in mean tentacle number regenerated (S _x0.13–0.15). The variability is similar whether experiments are performed using randomly selected animals or animals with identical tentacle numbers. The variability is, further, not the result of profound differences in the time of tentacle initiation in individual animals.Addition of 10^–5 M glutamate or a methanol extract to the assay medium results in both an earlier appearance of tentacles and in more tentacles being regenerated during early time periods. The mean tentacle number of methanol extract-treated animals is significantly higher than the mean tentacle number of either control or glutamate-treated animals at all time periods examined.The distribution of tentacle number classes among regenerates is normal in control and glutamate-treated animals but nonparametric in methanol extract-treated animals, making statistical analysis of the data using Student'st-test in-appropriate. The usefulness of the Mann WhitneyU and Kruskal-Wallis tests is discussed, as is the appropriateness of tentacle regeneration as an assay forhydra morphogens.     

Distinct cellular expression pattern of annexins in Hydra vulgaris

The annexins are a structurally related family of Ca2+ and phospholipid binding proteins whose function has not been clearly defined. Further investigations of annexin function may be enhanced by studying simpler organisms that express fewer annexin gene products. We previously characterized annexin XII from the freshwater cnidarian Hydra vulgaris (Schlaepfer, D. D., D. A. Fisher, M. E. Brandt, H. R. Bode, J. Jones, and H. T. Haigler. 1992. J. Biol. Chem. 267:9529-9539). In this report, we detected one other hydra annexin (40 kD) by screening hydra cell extracts with antibodies raised against peptides from highly conserved regions of known annexins. The 40-kD protein was expressed at less than 1% of annexin XII levels. These biochemical studies indicate that hydra contain a very limited number of annexin gene products. The cellular hydra annexin distribution was analyzed by indirect immunofluorescence. Using affinity-purified antibodies to annexin XII, the epithelial battery cells were stained throughout the tentacle. A lower level of annexin XII staining was detected in peduncle region epithelial cells. No other cell types showed detectable annexin XII staining. The anti-peptide antibody that specifically detected the 40-kD hydra annexin, maximally stained the cytoplasm of nematocytes. The immunofluorescent results showed that annexin XII and the 40-kD annexin were not co-expressed in the same cells. Since the hydra annexins localized to specific subsets of the total hydra cell types, it is likely that these proteins perform specialized biological roles, and not general "housekeeping" functions which are part of the essential molecular machinery of all cells.     

Calcium- and voltage-dependence of nematocyst discharge in Hydra vulgaris

In Hydra vulgaris, discharge of stenotele nematocysts was induced by contact with prey, electrical stimuli, or increase in the external potassium concentration. In each case 10^-4 M calcium was required in the culture medium. The results indicated a voltage- and calcium-dependent mechanism different from mechano- or chemoreception allowing calcium influx from the external medium. A threshold for activation was suggested by the steep increase of the rate of electrically induced discharge in external fields of 3.5 kV/m. Although organic antagonists for vertebrate calcium channels were ineffective in blocking the calcium-induced nematocyst discharge, inorganic divalent and trivalent cations competitively inhibited the process, with a sequence (Co²⁺ < Ni²⁺ < Cd²⁺ < La³⁺ < Gd³⁺) similar to that seen for antagonism of calcium influx through voltage-dependent channels. Magnesium, an intracellular calcium antagonist, decreased nematocyst discharge, while strontium replacing calcium supported the discharge at a lowered rate. It is concluded that in the nematocyte a voltage-activated influx of calcium through apical ion channels initiates the discharge of the nematocyst in an exocytotic process.     

Feeding and wounding responses in Hydra suggest functional and structural polarization of the tentacle nervous system

The nervous system of Hydra, a freshwater cnidaria, occurs as dispersed, or diffuse, nerve net throughout the animal. It is widely accepted that in a diffuse nervous system an external stimulus is conducted in all directions over the net. Here I report observations that hydra tentacles respond to feeding and wounding stimuli in a unidirectional manner. Upon contact of a tentacle with a brine shrimp larva during feeding, tissue on the proximal side of the point of contact contracted strongly, whereas tissue on the distal side contracted only very weakly. Feeding a tentacle to which a second tentacle was grafted to the proximal end in the reversed orientation showed that unidirectional conduction, once initiated, was blocked by the reversal of polarity, demonstrating that the distal to proximal polarity of tissue is crucial for unidirectional conduction. Unidirectional conduction was obtained also by mechanically pinching the tissue. The response of tentacles devoid of neurons examined was bidirectional, demonstrating that the nervous system is responsible for the unidirectional responses. These observations suggest that polarized property of the nerve net in hydra tentacles is responsible for the unidirectional tentacle contraction.     

Lithium ions interfere with pattern control in Hydra vulgaris

Summary LiCl in concentrations exceeding 0.5 mM affects morphogenesis in Hydra vulgaris (formerly named H. attenuata) by interfering with the foot-forming system(s). Pulse treatment of Hydra bearing small buds or of animals that develop a bud within 14 h after the end of treatment prevented foot formation at the bud's base in a concentration-dependent manner. With increasing concentrations of Li⁺ or length of treatment in increasing percentage of the buds remained permanently connected to the parent by a bridge of tissue thus forming a stable secondary axis. Instead of the normal ring-shaped foot a patch of basal disc tissue developed or the bud failed to differentiate foot tissue at all. Long-term culture of animals in 1 mM LiCl inhibited budding from the second day of treatment onwards and detachment of existing buds was delayed. After 4 days of treatment 15%–30% of budless or bud-bearing animals developed up to three patch-like basal discs at various positions along the body axis; these usually grew out one above the other on the same side of the animal but never at the same transverse level. Besides these patch feet broad belts of foot tissue were observed in the lower gastric region. After 1 week of treatment half of the animals developed a constriction located usually in the lower two-thirds of the body axis. The tissue adjacent to this constriction and particularly above it differentiated into mucus-secreting foot tissue. Subsequent separation into two morphologically intact polyps occurred occasionally. When treatment was stopped, budding restarted within the next 3 days at several positions along the body axis whether or not secondary feet or a constriction existed. Buds grew out in different budding zones, which persisted for several days. This burst of budding led to up to 7 buds per animal within 3 days. After about 1 week the animals regulated to normality or became epithelial, i.e. they lost their stem cells during and after treatment.     

Mapping the Whole-Body Muscle Activity of Hydra vulgaris

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